M421936 五、新型說明: 【新型所屬之技術領域】 本創作係與玻璃基板有關,更詳而言之係指一種玻璃 基板搬運包裝箱。 【先前技術】M421936 V. New description: [New technical field] This creation is related to glass substrates, and more specifically refers to a glass substrate handling package. [Prior Art]
按’由於玻璃基板極為脆弱,且其表面相當平滑不容 有附著異物、灰塵或其它之損傷。因此,於廠區内移動或 移動至其它廠區時,皆必須放置於一搬運箱内加以保護。 然而,隨著現今科技之發展及使用者之需求,玻璃基 板之尺寸愈加大型化及多樣化,以目前之搬運箱而言,係 以具緩衝效果之材料所一體製成,即搬運箱之底壁與四周 環壁為一體成型,若因應每一種尺寸之玻璃基板而製造出 各種對應之搬運箱尺寸時,不僅將導致搬運箱之模具費用 大幅增加’更會使得適用於大型尺寸玻璃基板之搬運箱, 必須由更大型之搬運箱製造機方能加以製成,使得搬運箱 製造機之購置費用更是昂貴之負擔。 【新型内容】 有鑑於此’本創作之其一目的乃在提供一種玻璃基板 搬運包裝箱,係能適用於多種玻璃基板之尺寸,以減少所 需之製造模具費用。 本創作之另一目的乃在提供一種玻璃基板搬運包裝 箱,係能經由調整而適用於多種玻璃基板之尺寸,以增進 3 M421936 產品之適用者。 緣此,本創作乃提供一種玻璃基板搬運包裝箱,其主 要包含有:一底板,其相對兩側邊上分別具有一嵌接凸部; 二邊罩,該各邊罩分別具有一邊壁及一體自該邊壁兩相對 側垂直延伸之二侧壁,該邊壁與側壁之内側面具有一連續 之第一嵌接槽’而該邊壁之内侧面上具有若干由上往下依 等間距排列設置之間隔槽,使該二邊罩之各第一嵌接槽分 鲁別供該底板之兩端插入嵌接;至少二側板,該各側板之内 侧面分別具有一第二嵌接槽,以由該各側板之第二嵌接槽 分別供該底板兩側位置之嵌接凸部插入嵌接,使該各侧板 位於該底板之兩側並被併接於該等邊罩之間;一頂罩,係 罩設於該等邊罩及該等側板之頂緣上。 上述之玻璃基板搬運包裝箱,更包含有至少一間隔 塊,該間隔塊上具有若干依等間距平行設置之放置槽;該 _ 底板之頂面上凹陷至少一凹陷區,以由該凹陷區供該間隔 塊置放。 上述之玻璃基板搬運包裝箱,其中,該間隔塊係由發 泡性聚乙烯(E P E : Expandable Polyethylene)、發泡 性聚丙婦(E P P : Expanded Polypropylene)、發泡性聚 苯乙浠(E P S : Expandable Polystyrene)、發泡乙烯聚 合物(EP〇)及合成塑脂(EPU: Expanded Polyurethane)中的任一種材質所製成。 4 M421936 上述之玻璃基板搬運包裝箱,其中,該邊罩之邊壁與 • 侧壁之頂緣上凸設有一連續之第一凸抵部;該側板之頂緣 * 上/、有苐一凸抵部,該頂罩係罩抵於該邊罩及該侧板之 第一、二凸抵部上。 上述之玻璃基板搬運包裝箱,其中,該邊罩之外側面 於鄰接該第一凸抵部之位置處凹陷有一伸入槽,以利將該 頂罩加以掀開。 _ 上述之玻璃基板搬運包裝箱,其中,該頂罩具有一頂 罩本體、若干之覆塊及二壓抵件;該頂罩本體由其底面往 内凹陷有一罩覆空間,該等覆塊係置於該頂罩本體之罩覆 空間内,且該等覆塊上分別具有若干依等間排列設置之置 放槽,該二壓抵件係壓抵於該邊罩之側壁及該側板之頂緣 上’該頂罩本體之罩覆空間係供該邊罩及該側板之頂緣伸 入0 •上述之玻璃基板搬運包裝箱,其中,該頂罩本體及該 各覆塊係由發泡性聚乙烯(E P E : Expandable Polyethylene )、發泡性聚丙烯(E P P : Expanded Po 1 ypropy 1 ene )、發泡性聚苯乙烯(E P S : Expandab 1 e Polystyrene)、發泡乙烯聚合物(E P 0 )及合成塑脂(E P U : Expanded Polyurethane)中的任一種材質所製成。 上述之玻璃基板搬運包裝箱,更包含有至少一連結 桿;該各邊罩之二側壁外側面上具有至少一第一連結槽, 5 M421936 該侧板之外侧面上具有至少一第二連結槽;該連結桿係嵌 . 接於該第一、二連結槽中,以維持整體外表面之平整。 上述之玻璃基板搬運包裝箱,其中,在第一連結槽中 具有第一凸體,在第二連結槽中具有第二凸體,該連結桿 為一斷面呈门型之桿體,以包覆固定第一凸體和第二凸體。 上述之玻璃基板搬運包裝箱,其中,該連結桿之外表 面上具有至少一拿取凸部,以利拿取該連結桿。 • 上述之玻璃基板搬運包裝箱,其中,該連結桿上設有 若干依預定間距設置之鎖接孔,以供若干之鎖接件經由穿 入該鎖接孔而將該連結桿固定於該邊罩及該側板上。 上述之玻璃基板搬運包裝箱,其中,該連結桿係由木 頭、塑膠、金屬、樹脂或其它硬質材料中之任一種所製成, 以增進連結強度。 上述之玻璃基板搬運包裝箱,更包含有若干之嵌固 • 件,該等嵌固件具有至少一鎖接部,該等嵌固件係分別嵌 固於該邊罩與該侧板上,並由該鎖接部供與外部元件鎖接。 上述之玻璃基板搬運包裝箱,更包含有至少一連結 桿;該各邊罩之二側壁外側面上具有至少一第一連結槽, 該側板之外側面上具有至少一第二連結槽;該等嵌固件係 分別嵌固於該邊罩與該側板之第一、二結連槽中,並由該 鎖接部供與該連結桿加以鎖接。 上述之玻璃基板搬運包裝箱,其中,該等嵌固件,具 6 M421936 有多數之第一嵌固件及多數之第二嵌固件,該第一嵌固件 * 具有一體連接之一側壁嵌固部、一邊壁嵌固部及一第一鎖 . 接部,該侧壁嵌固部係嵌固内藏於該邊罩之第一連結槽之 側壁中,該邊壁嵌固部則嵌固内藏於該邊罩之邊壁上,使 由該第一嵌固件強化該邊壁與該侧壁間之結構強度,該第 一鎖接部則外露於該第一連結槽内,該第二嵌固件具有一 體連接之侧板嵌固部及一第二鎖接部,該侧板嵌固部係嵌 • 固内藏於該侧板内,使該第二鎖接部外露於該第二連結槽 中。 上述之玻璃基板搬運包裝箱,其中,該嵌固件係由木 頭、塑膠、金屬、樹脂或其它硬質材料中之任一種所製成。 上述之玻璃基板搬運包裝箱,其中,該底板、邊罩、 側板與該頂罩皆係由發泡性聚乙嫦(E P E : Expandab 1 e Polyethylene )、發泡性聚丙婦(E P P : Expanded 鲁 Polypropylene)、發泡性聚苯乙烯(E P S : Expandable Polystyrene)、發泡乙稀聚合物(E P〇)及合成塑脂(E P U : Expanded Polyurethane)中的任一種材質所製成。 上述之玻璃基板搬運包裝箱,其中,上述之玻璃基板 泛指一般之玻璃基板(母板玻璃、液晶顯示用玻璃基板、 電漿顯體用玻璃基板、螢光顯示管、熱感應頭用玻璃基板、 有機EL基板、彩色濾光片等)、混合式1C用陶瓷基板、晶 圓、已形成薄膜電晶體之玻璃基板、液晶胞、組入電路之 7 M421936 玻璃基板等各種玻璃基板或使用該等玻璃基板製成之完成 . 面板中之任一種。 . 上述之玻璃基板搬運包裝箱,其中,在側板與邊罩之 相臨接處設有一對應之凹槽與凸條結構。 本創作使用可拆解分離之方式加以組成,因此每一元 件之體積遠較習知整體以一體成型之方式要來得小,而能 降低製造成本,且能由現有或傳統生產設備來製造,不須 • 增購大型設備,可以節省成本支出。另外,可由侧板之數 量增減及該底板與頂罩之尺寸稍作變化,便能達成包裝不 同尺寸之玻璃基板的目的,而能減少材料之浪費及增進產 品之適用性。 【實施方式】 為使貴審查委員能對本創作之特徵與特點有更進一 步之了解與認同,茲列舉以下較佳實施例並配合圖式說明 •如下: 請參閱第1〜6圖,係本創作一較佳實施例所提供一 種玻璃基板搬運包裝箱1 0 0,其主要包含有一底板1 0、若干之間隔塊20、二邊罩30、至少二側板4 0、 一頂罩5 0、若干之嵌固件6 0及若干之連結桿7 0,其 中; 請參閱第1〜6圖,該底板10,其頂面上凹陷有若 干依預定間距設置之凹陷區1 1,該底板1 0之兩相對長 8 M421936 侧邊上分別具有一嵌接凸部1 2。 請參閱第1〜6圖,該等間隔塊2〇,係分別放置於 該底板10之各凹陷區1 ",且該間隔塊2◦之頂面上 具有若干依等間距橫向平行設置之放置槽2工。 —請參閱第1〜6圖,該二邊罩3〇,係分別概呈一门 字型,該邊罩3 0具有-邊壁3 1及二分別垂直自該邊壁 3 1兩侧一體延伸之側壁3 2,該邊壁3丄與該侧壁3 2 鄰近底部之内側面上分別凹設有一連續<第一嵌接槽3 3 ’而該邊壁3 1之内側面上具㈣干依等間距由上往下 縱向平行設置之間隔槽3 4,並於該各邊罩3 〇之二側壁 3 2外側面上設有至少—第—連結槽3 5,在第一連結槽 3 5中具有第一凸體3 5丄,該邊壁3丄與該側壁3 頂緣上凸設有一連續之第一凸抵部3 6。 請參閱第1〜6圖,該二側板4 〇,分別呈一平板狀, 該側板4 G鄰近底部之内側面上具有—橫向之第二嵌接槽 41,該側板40之外側面上具有至少—第二連結槽4 2 ’在第二連結槽42中具有第二凸體421,並於該側 板4 0頂緣上具有一第二凸抵部4 3。 清參閱第1®,該頂罩5〇,具有一頂罩本體5工、 若干之覆塊5 2及二壓抵件5 3 ;該頂罩本體5 i由其底 面往内凹陷有-罩覆空間,該等覆塊5 2係置於該頂罩本 體5 1之罩覆空間内,且該等覆塊5 2上分別具有對應於 9 M421936 間隔塊2 G之放置槽2 1之若干依等間排列設置之橫向置 放槽(圖中未示)。 請參閱1〜6圖,該等嵌固件6 〇,具有多數之第一 肷固件6 1及夕數之第二嵌固件62,該第一嵌固件61 具有-體連接之-側壁嵌固部6 i i —邊壁嵌固部6工 2及一第—鎖接部6 1 3,該側壁嵌固部6 1 1係嵌固内 藏於該邊罩3 0之第一連結槽3 5位置之侧壁3 2中,該 邊壁嵌固部6 1 2則嵌固内藏於該邊罩3 Q之邊壁3 i 上,使由該第一喪固件6丄強化該邊壁3丄與該側二2 間之結構強度,該第i接部6 i 3則外露於該第一連結 槽3 5心該第二嵌固件6 2具有—體連接之側板嵌固部 6 2 1及-第二鎖接部6 2 2,該側板嵌固部6 2丄係敌 固内藏於該侧板4◦内’使該第二鎖接部6 2 2外露於該 苐一連結槽4 2中。 請參閱第1〜6圖,該等連結桿7〇,分別為一斷面 概呈门型之桿體,以供包覆固定第―、第二凸體3 5丄、 421,並於該連結桿7Q之外表面上設有若干依預定間 距設置之鎖接孔7 ]_及至少一拿取凸部7 2。 另外’在側板4 0及邊罩3 〇之相臨接處設有對應之 凹槽3 8及凸條4 4 ’以增加結構強度及氣密性,具有防 潮功能。 疋X上述即為本創作所提供一較佳實施例之玻璃基 M421936 板搬運包裝箱1 q 〇的各部構件介紹接著再將其組裝方 式及其使用特點介紹如下: Τ先’本創作於組裝時’係先將該等間隔塊2 0放置 於該底板10之凹陷區丄丄内,並使該間隔塊2 〇之放置 槽2 1朝向上方(如第5圖所示),接著,如第5圖所示, 便可將其—邊罩3 Q之第-嵌接槽3 3供該底板1 〇之嵌 接凸部1 2插入嵌接,即該底板i 〇兩侧之嵌接凸部工2 係插入於該邊罩3〇二側壁3 2之第一嵌接槽3 3内,而 該底板1 0之端緣則插入於該邊罩3 〇邊壁3 第一嵌 接槽3 3中,使該邊罩3 〇與該底板1 〇呈穩固地連結。 接著,再將該側板4 〇之第二嵌接槽4 i供該底板工 0之嵌接凸部1 2插入嵌接(如第6圖所示),使該二側板 4 0分別位於該底板1 〇之兩側位置上,並與該邊罩3 〇 之侧壁3 2緣相互併接,以由該邊罩3 〇之凹槽3 8供該 側板4 0之凸條4 4相互緊密抵接。再來,便可再將另一 邊罩3 0依相同方式嵌接於該底板丄〇之另一端上(如第 3圖所示),使該專側板4 0被該二邊罩3 〇所併接。 如此一來,便可將該頂罩5 〇之壓抵件5 3放置於該 邊罩3 0與侧板4 0之第一、二凸抵部3 6、4 3上(如 第3圖所示)’再將該頂罩本體5 1連同該等覆塊5 2 —併 地罩設於該邊罩3 0與該侧板4 0之第一、二凸抵部3 6、4 3上(如第4圖所示)。 11 二:便:::=7°插接於該邊罩30與側板 二=於::嵌,60上,_件 而蔣等)經由穿過該鎖接孔Η 字該連、、,。桿7 〇固定於該各後接件 部 6 1 3、fi ? 9 !_ 一鎖接 2 以將該邊罩3 0與該側板4 〇間之 關係加以固定。 疋以’上料為本創作之組裝方式介紹,而裝設玻璃 基板(圖中未之作業,則可在該鮮5 Q未組褒前, 將玻璃基板放人於該底板、邊罩3 ◦與該側板4◦所共同 圍繞之區域内’並由該間隔塊2 〇之放置槽2丄、邊軍3 〇之間隔槽3 4與該頂罩5 Q之置放槽,供各玻璃基板之 邊緣插置^能加以隔開—預定間距,以避免各玻璃基板發 生碰撞情事。 因此,由於本創作使用可拆解分離之型式加以組成, 因此每一元件之體積遠較習知整體以一體成型之方式要來 得小,而能無需購置大型製造機器,以降低製造成本。另 外,當欲由本創作加以包裝不同尺寸之玻璃基板時,僅需 將該侧板之數量加以增減並將該底板與頂罩之尺寸稱作變 化’便能達成包裝不同尺寸之玻璃基板的目的,而無需另 外製造多種不同尺寸之箱體來包裝玻璃基板,而能減少材 料之浪費及增進產品之適用性。 12 M421936 依照本創作上述之玻璃基板搬運包裝箱,其中,該底 . 板1 0、間隔塊2 0、邊罩3 0、側板4 0與頂罩5 0之 _ 頂罩本體5 1及各覆塊5 2皆是由發泡性聚乙烯(E P E : Expandable Polyethylene)、發泡性聚丙稀(E P P : Expanded Polypropylene )、發泡性聚苯乙烯(E P S : Expandable Poly styrene )、發泡乙烯聚合物(EPO)及合 成塑脂(E P U : Expanded Polyurethane)中的任一種材質 • 所製成。以前述各種發泡材質具有重量輕與吸震效果佳的 特性。 上述之嵌固件6 0與連結桿7 0係由硬質材料所製 成,如木頭、塑膠、金屬、樹脂…等。 再者,上述之玻璃基板泛指一般之玻璃基板(母板玻 璃、液晶顯示用玻璃基板、電漿顯體用玻璃基板、螢光顯 示管、熱感應頭用玻璃基板、有機EL基板、彩色濾光片 等)、混合式1C用陶瓷基板、晶圓、已形成薄膜電晶體之 玻璃基板、液晶胞、組入電路之玻璃基板等各種玻璃基板 或使用該等玻璃基板製成之完成面板等。 另外’如第2圖所示,上述該邊罩3 0之外側面於鄰 接該第一凸抵部3 6之位置處則凹陷有一伸入槽3 7,使 當該頂罩5 〇置設於該邊罩3 〇上時,可由使該伸入槽3 7提供搬運者手部伸入之空間,以利將該頂罩5 〇加以掀 開者。 13 M421936 接著,當使用者或搬運者欲拆開本創作時,除先將該 . 各鎖接件加以拆離外,僅需由使用者之手部拉引該連結桿 7 0上之拿取凸部7 2以將該連結桿7 0加以拆離後,便 可逐一地將側板與邊罩加以拆離。 以上所揭,僅為本創作所提供之較佳實施例,並非用 以限制本創作實施例之範圍,凡本技術領域内之相關技藝 者根據本創作所為之均等變化,皆應屬本創作所涵蓋之範 # 圍。 【圖式簡單說明】 第1圖係本創作一較佳實施例之立體分解圖。 第2圖係第1圖所示實施例之立體組合圖。 第3圖係第1圖所示實施例之立體組合圖;其主要係將頂 罩加以拆離。 • 第4圖係第1圖所示實施例之立體組合圖;其主要係將連 結桿加以分離。 第5圖係第1圖所示實施例之局部構件立體組合圖;其主 要顯示將底板與間隔塊及邊罩加以組合。 第6圖係第1圖所示實施例之局部構件立體組合圖;其主 要顯示將底板與侧板加以組合。 M421936 【主要元件符號說明】 . 玻璃基板搬運包裝箱1 0 0 底板1 0 嵌接凸部1 2 放置槽2 1 邊壁3 1 第一嵌接槽3 3 • 第一連結槽35 伸入槽3 7 第二散接槽4 1 第二凸抵部4 3 頂罩本體5 1 壓抵件5 3 第一嵌固件6 1 • 邊壁嵌固部6 1 2 第二嵌固件6 2 第二鎖接部6 2 2 鎖接孔7 1 第一凸體3 5 1 凹槽3 8 凹陷區1 1 間隔塊2 0 邊罩3 0 側壁3 2 間隔槽3 4 第一凸抵部3 6 側板4 0 第二連結槽4 2 頂罩5 0 覆塊5 2 嵌固件6 0 側壁嵌固部6 1 1 第一鎖接部6 1 3 側板嵌固部6 2 1 連結桿7 0 拿取凸部7 2 第二凸體4 2 1 凸條4 4 15Press 'Because the glass substrate is extremely fragile and its surface is fairly smooth and does not contain foreign matter, dust or other damage. Therefore, when moving or moving to other sites in the plant, they must be placed in a tote for protection. However, with the development of today's technology and the needs of users, the size of the glass substrate has become larger and more diversified. In the current tote, it is made of a cushioning material, that is, the bottom of the tote. The wall and the surrounding ring wall are integrally formed. If the corresponding carrier size is manufactured according to the glass substrate of each size, not only will the mold cost of the tote be greatly increased, but also the handling of the large-size glass substrate will be made. The box must be made by a larger tote manufacturing machine, making the purchase cost of the tote manufacturing machine even more expensive. [New Content] In view of the above, one of the purposes of the present invention is to provide a glass substrate handling package that can be applied to a variety of glass substrates to reduce the cost of manufacturing molds required. Another object of the present invention is to provide a glass substrate handling package that can be adapted to a variety of glass substrates to accommodate the 3 M421936 product. Therefore, the present invention provides a glass substrate carrying package, which mainly comprises: a bottom plate having an engaging convex portion on opposite sides thereof; and a side cover each having a side wall and an integral body Two side walls extending perpendicularly from opposite sides of the side wall, the side wall and the inner side of the side wall having a continuous first engaging groove 'and the inner side of the side wall having a plurality of equally spaced from top to bottom The spacing groove is arranged such that the first engaging grooves of the two side covers are respectively inserted into the two ends of the bottom plate; at least two side plates each having a second engaging groove on the inner side surface thereof The second engaging grooves of the side plates are respectively inserted into the engaging convex portions at the two sides of the bottom plate, so that the side plates are located on both sides of the bottom plate and are connected between the side covers; A top cover, the cover is disposed on the top edge of the side cover and the side plates. The above-mentioned glass substrate carrying package further includes at least one spacer block having a plurality of placing grooves arranged at equal intervals in parallel; the top surface of the bottom plate is recessed with at least one recessed area for being provided by the recessed area The spacer block is placed. In the above-mentioned glass substrate transfer package, the spacer block is made of expandable polyethylene (EPE: Expandable Polyethylene), expanded polypropylene (EPP: Expanded Polypropylene), and expanded polystyrene (EPS: Expandable). Polystyrene), foamed ethylene polymer (EP〇) and synthetic plastic (EPU: Expanded Polyurethane). 4 M421936 The above-mentioned glass substrate carrying package, wherein a side of the side cover and a top edge of the side wall are convexly provided with a continuous first convex abutting portion; the top edge of the side plate is *, and has a convex In the abutting portion, the top cover is attached to the side cover and the first and second convex portions of the side plate. In the above-mentioned glass substrate carrying package, the outer side surface of the side cover is recessed into a groove at a position adjacent to the first convex abutting portion to facilitate the splitting of the top cover. The above-mentioned glass substrate carrying package, wherein the top cover has a top cover body, a plurality of covering blocks and two pressing members; the top cover body is recessed from the bottom surface thereof by a covering space, and the covering portions are The plurality of pressing members are respectively pressed against the side wall of the side cover and the top of the side plate, and are disposed in the covering space of the top cover body, and the plurality of pressing members are respectively pressed against the side wall of the side cover and the top side of the side plate The cover space of the top cover body is for the edge cover and the top edge of the side plate to extend into the top surface of the glass substrate handling package, wherein the top cover body and the respective cover block are foamed Polyethylene (EPE: Expandable Polyethylene), Expandable Polypropylene (EPP: Expanded Po 1 ypropy 1 ene), Expandable Polystyrene (EPS: Expandab 1 e Polystyrene), Foamed Ethylene Polymer (EP 0 ) and Made of any of EPU (Expanded Polyurethane). The glass substrate carrying package further includes at least one connecting rod; the outer side surfaces of the side walls of the side covers have at least one first connecting groove, and 5 M421936 has at least one second connecting groove on the outer side of the side plate The connecting rod is embedded in the first and second connecting grooves to maintain the flatness of the entire outer surface. The glass substrate carrying package according to the above aspect, wherein the first connecting groove has a first convex body, and the second connecting groove has a second convex body, and the connecting rod is a rod having a door shape in a cross section. The first protrusion and the second protrusion are fixed to the cover. In the above glass substrate carrying package, the outer surface of the connecting rod has at least one take-up convex portion for taking the connecting rod. The above-mentioned glass substrate carrying package, wherein the connecting rod is provided with a plurality of locking holes arranged at predetermined intervals, so that a plurality of locking members are fixed to the side by penetrating the locking holes a cover and the side panel. The glass substrate carrying package described above, wherein the connecting rod is made of any one of a wooden head, a plastic, a metal, a resin or other hard material to improve the joint strength. The above-mentioned glass substrate carrying package further includes a plurality of embedded components, and the inserts have at least one locking portion, and the inserts are respectively embedded on the side cover and the side plate, and The locking portion is for locking with an external component. The glass substrate carrying package further includes at least one connecting rod; the outer side surfaces of the side walls of the side covers have at least one first connecting groove, and the outer side of the side plate has at least one second connecting groove; The embedded fasteners are respectively embedded in the first and second joint grooves of the side cover and the side plate, and are locked by the connecting portion to be coupled to the connecting rod. The above-mentioned glass substrate carrying package, wherein the embedding device has 6 M421936 having a plurality of first inserts and a plurality of second inserts, the first inserts * having one side wall integral portion and one side integrally connected a wall-embedded portion and a first locking portion, the side wall-embedded portion is embedded in a side wall of the first connecting groove of the side cover, and the side wall-embedded portion is embedded therein The side wall of the side cover is configured to strengthen the structural strength between the side wall and the side wall by the first inserting piece, the first locking part is exposed in the first connecting groove, and the second inserting piece is integrated The side panel inserting portion and the second latching portion are embedded and fixed in the side panel, so that the second latching portion is exposed in the second connecting slot. The glass substrate carrying package described above, wherein the insert is made of any one of a wooden head, a plastic, a metal, a resin or other hard material. The above-mentioned glass substrate carrying package, wherein the bottom plate, the side cover, the side plate and the top cover are made of EPE (Expandab 1 e Polyethylene), and foaming polyacryl (EPP: Expanded Lu Polypropylene) ), made of any of foamable polystyrene (EPS: Expandable Polystyrene), foamed ethylene polymer (EP〇), and synthetic plastic polyurethane (EPU: Expanded Polyurethane). The above-mentioned glass substrate is generally referred to as a glass substrate (a mother glass, a glass substrate for a liquid crystal display, a glass substrate for a plasma display, a fluorescent display tube, or a glass substrate for a thermal head). , such as a ceramic substrate for hybrid 1C, a wafer, a glass substrate on which a thin film transistor is formed, a liquid crystal cell, or a glass substrate of a 7 M421936 glass substrate incorporated in a circuit, or the like. The glass substrate is made of any one of the panels. The glass substrate carrying package described above, wherein a corresponding groove and rib structure is provided adjacent to the side plate and the side cover. The creation is composed of a detachable separation method, so that the volume of each component is much smaller than that of the conventional one, which can reduce the manufacturing cost and can be manufactured by existing or conventional production equipment. • Adding large equipment to save costs. In addition, the number of side plates can be increased or decreased, and the size of the bottom plate and the top cover can be slightly changed to achieve the purpose of packaging glass substrates of different sizes, thereby reducing material waste and improving product applicability. [Embodiment] In order to enable the reviewing committee to have a better understanding and recognition of the features and characteristics of this creation, the following preferred embodiments are illustrated with the following descriptions: • Please refer to Figures 1 to 6 for the creation. A preferred embodiment provides a glass substrate handling package 100, which mainly includes a bottom plate 10, a plurality of spacer blocks 20, a double side cover 30, at least two side plates 40, a top cover 50, and a plurality of The embedded structure 60 and the plurality of connecting rods 70, wherein, in the first to sixth embodiments, the bottom plate 10 is recessed on the top surface thereof with a plurality of recessed regions 1 1 disposed at a predetermined interval, and the bottom plate 10 is opposite to each other. The length 8 M421936 has a fitting protrusion 12 on each side. Referring to FIGS. 1 to 6, the spacer blocks 2 are respectively placed in the recessed areas 1 " of the bottom plate 10, and the top surface of the spacer block 2 has a plurality of horizontally parallel placements at equal intervals. Slot 2 work. - Referring to Figures 1 to 6, the two side covers 3 are respectively formed in a single font shape, and the side covers 30 have a side wall 3 1 and two vertically extending from the sides of the side wall 3 1 respectively. The side wall 3 2, the side wall 3 丄 and the side surface adjacent to the bottom side of the side wall 3 2 are respectively recessed with a continuous <first engaging groove 3 3 ' and the inner side surface of the side wall 31 is (4) dry The spacing grooves 34 are disposed in parallel from the top to the bottom in the longitudinal direction, and at least the first connecting groove 35 is disposed on the outer side of the side walls 3 2 of the side covers 3 ,, in the first connecting groove 35. There is a first convex body 3 5 中, and the side wall 3 丄 and the top edge of the side wall 3 are convexly provided with a continuous first convex abutting portion 36. Referring to Figures 1 to 6, the two side panels 4 are respectively formed in a flat shape, and the side panel 4G has a laterally adjacent second engaging groove 41 on the inner side surface of the bottom portion, and the side panel 40 has at least the outer side surface thereof. The second connecting groove 4 2 ′ has a second convex body 421 in the second connecting groove 42 and a second convex abutting portion 43 on the top edge of the side plate 40 . Referring to Chapter 1®, the top cover 5〇 has a top cover body 5, a plurality of cover blocks 5 2 and two press-fitting members 5 3; the top cover body 5 i is recessed from the bottom surface thereof by a cover-cover Spaces, the coverings 52 are placed in the covering space of the top cover body 51, and the coverings 52 have a plurality of equal spacings corresponding to the placement slots 2 1 of the 9 M421936 spacers 2 G, respectively. A lateral placement slot (not shown) arranged in series. Referring to FIGS. 1 to 6, the embedded firmware 6 has a plurality of first firmware 6 1 and a second embedded 62 of the eve, the first embedded member 61 having a body connection-side wall fitting portion 6 Ii - a side wall fitting portion 6 and a first locking portion 6 1 3, the side wall fitting portion 61 1 is embedded in the side of the first connecting groove 35 of the side cover 30 In the wall 3 2 , the side wall embedded portion 6 1 2 is embedded and embedded in the side wall 3 i of the side cover 3 Q , so that the side wall 3 丄 and the side are strengthened by the first damper 6 丄The structural strength of the two and two, the i-th joint 6 i 3 is exposed to the first connecting groove 35. The second insert 6 2 has a body-connected side plate fitting portion 6 2 1 and a second lock The connecting portion 6 2 2 , the side panel fitting portion 6 2 is embedded in the side panel 4 , and the second locking portion 6 2 2 is exposed in the first connecting groove 42 . Referring to Figures 1 to 6, the connecting rods 7〇 are respectively a cross-sectional generalized door type body for covering and fixing the first and second convex bodies 35, 421, and the connection. The outer surface of the rod 7Q is provided with a plurality of locking holes 7 disposed at predetermined intervals, and at least one of the receiving portions 7 2 . Further, a corresponding groove 3 8 and a ridge 4 4 ' are provided at the adjacent side of the side plate 40 and the side cover 3 to increase the structural strength and airtightness, and have a moisture-proof function.疋X The above is the introduction of each component of the glass-based M421936 board handling package 1 q 一 of a preferred embodiment of the present invention, and then the assembly method and its use characteristics are as follows: Τ先'This creation is assembled 'The spacer block 20 is first placed in the recessed region 该 of the bottom plate 10, and the spacer 2 is placed facing the slot 2 1 (as shown in FIG. 5), and then, as in the fifth As shown in the figure, the first engaging groove 3 3 of the side cover 3 Q can be inserted into the engaging projection 1 2 of the bottom plate 1 , that is, the engaging convex portion on both sides of the bottom plate i 2 is inserted into the first engaging groove 3 3 of the side wall 3 2 of the side cover 3, and the edge of the bottom plate 10 is inserted into the first engaging groove 3 3 of the side wall 3 The side cover 3 〇 is firmly connected to the bottom plate 1 。. Then, the second engaging groove 4 i of the side plate 4 is inserted into the engaging protrusion 1 2 of the bottom plate 0 (as shown in FIG. 6 ), so that the two side plates 40 are respectively located on the bottom plate. 1 两侧 on both sides of the ,, and the side rim 3 2 edge of the side rim 3 并 并 , , , , , , , , , , , 凹槽 凹槽 凹槽 凹槽 凹槽 凹槽 凹槽 凹槽 凹槽 凹槽 凹槽 3 3 3 3 3 3 3 3 3 3 3 3 3 3 Pick up. Then, the other side cover 30 can be engaged in the same manner on the other end of the bottom plate (as shown in FIG. 3), so that the side plate 40 is smashed by the two side cover 3 Pick up. In this way, the pressing member 5 3 of the top cover 5 can be placed on the first and second convex portions 3 6 and 4 3 of the side cover 30 and the side plate 40 (as shown in FIG. 3). The cover body 5 1 is further disposed on the first and second convex portions 3 6 , 4 3 of the side cover 30 and the side cover 40 together with the cover 5 2 ( As shown in Figure 4). 11 2::::=7° is inserted into the side cover 30 and the side plate. 2=::, embedded, 60, _, and jiang, etc.) by connecting the keyhole through the locking hole. The rod 7 〇 is fixed to the rear joint portions 6 1 3, fi 9 9__ a lock 2 to fix the relationship between the side cover 30 and the side plate 4 。.介绍Introduction to the assembly method of 'material-based creation', and installing a glass substrate (the operation is not in the picture, the glass substrate can be placed on the bottom plate and the side cover before the fresh 5 Q is not assembled) a groove which is disposed in a region surrounded by the side plate 4◦ and which is placed by the spacer block 2, the spacer groove 3 4 of the edge block 3, and the top cover 5 Q, for each glass substrate The edge insertion can be separated by a predetermined spacing to avoid collision of the glass substrates. Therefore, since the creation is composed of a detachable separation type, the volume of each component is much more integrated than the conventional one. The method is small, and it is not necessary to purchase a large manufacturing machine to reduce the manufacturing cost. In addition, when it is desired to package different sizes of glass substrates by the present creation, it is only necessary to increase or decrease the number of the side plates and to The size of the top cover is called the change', and the purpose of packaging the glass substrates of different sizes can be achieved without separately manufacturing a plurality of different sizes of boxes to package the glass substrate, thereby reducing the waste of materials and improving the application of the product. 12 M421936 The above-mentioned glass substrate carrying package according to the present invention, wherein the bottom plate 10, the spacer block 20, the side cover 30, the side plate 40 and the top cover 50 are provided. Each of the blocks 52 is made of expanded polyethylene (EPE: Expandable Polyethylene), expanded polypropylene (EPP: Expanded Polypropylene), expanded polystyrene (EPS: Expandable Poly styrene), and foamed ethylene. It is made of any of the materials (EPO) and expanded plastic (EPU: Expanded Polyurethane). It has the characteristics of light weight and shock absorbing effect in the above various foam materials. The above-mentioned embedded fastener 60 and connecting rod 7 0 is made of a hard material such as wood, plastic, metal, resin, etc. Further, the above-mentioned glass substrate generally refers to a general glass substrate (a mother glass, a glass substrate for liquid crystal display, or a glass for a plasma display). Substrate, fluorescent display tube, glass substrate for thermal sensing head, organic EL substrate, color filter, etc.), ceramic substrate for hybrid type 1C, wafer, glass substrate on which thin film transistor has been formed, liquid crystal cell, integrated circuit Various glass substrates such as glass substrates, or finished panels made of the glass substrates, etc. Further, as shown in Fig. 2, the outer side surface of the side cover 30 is adjacent to the first convex abutting portion 36. The recess has a protruding slot 37, so that when the top cover 5 is placed on the side cover 3, the extending slot 37 can be provided with a space for the hand of the carrier to extend into the top. Cover 5 〇 〇 13 13 M421936 Next, when the user or the carrier wants to open the creation, except that the locks are detached first, the user's hand only needs to pull the After the connecting rod 70 is taken up by the connecting rod 70 to detach the connecting rod 70, the side panel and the side cover can be detached one by one. The above is only the preferred embodiment provided by the present invention, and is not intended to limit the scope of the presently-created embodiments. All of the related art in the art should be equally changed according to the present creation, and should belong to the present invention. Covered by ##. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective exploded view of a preferred embodiment of the present invention. Fig. 2 is a perspective assembled view of the embodiment shown in Fig. 1. Fig. 3 is a perspective assembled view of the embodiment shown in Fig. 1; mainly for detaching the top cover. • Fig. 4 is a perspective assembled view of the embodiment shown in Fig. 1; the main purpose is to separate the tie bars. Fig. 5 is a perspective view of a partial member of the embodiment shown in Fig. 1; it mainly shows a combination of a bottom plate and a spacer block and a side cover. Fig. 6 is a perspective view of a partial member of the embodiment shown in Fig. 1; mainly showing the combination of the bottom plate and the side plates. M421936 [Description of main component symbols] . Glass substrate handling package 1 0 0 Base plate 1 0 Embedding projection 1 2 Placement groove 2 1 Side wall 3 1 First engagement groove 3 3 • First coupling groove 35 extends into groove 3 7 second splicing groove 4 1 second convex portion 4 3 top cover body 5 1 pressing member 5 3 first fitting 6 1 • side wall fitting 6 1 2 second fitting 6 2 second locking Part 6 2 2 Locking hole 7 1 First convex body 3 5 1 Groove 3 8 Recessed area 1 1 Spacer block 2 0 Side cover 3 0 Side wall 3 2 Spacer groove 3 4 First convex abutment part 3 6 Side plate 4 0 Two coupling groove 4 2 Top cover 50 0 Cover 5 2 Insert 6 0 Side wall fitting 6 1 1 First locking part 6 1 3 Side plate fitting 6 2 1 Connecting rod 7 0 Take the convex part 7 2 Two convex body 4 2 1 convex strip 4 4 15